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Microsoft PowerPoint - _START-HERE_ch10_lecture
[]Microbiology
Taxonomy
Provides universal names ( ) for organisms
Provides a reference for identifying organisms
The Study of Phylogenetic () Relationships
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Systematics, or Phylogeny ()
The study of the evolutionary history of organisms
All Species Inventory (2001–2025) To identify all species of life
on Earth
Currently more than 1.7 million identified
Estimated number: 10~100 million
Copyright © 2010 Pearson Education, Inc.
Placing Bacteria
1735 Kingdoms Plantae and Animalia (Carolus Linnaeus) 1857 Bacteria
and fungi put in the Kingdom Plantae –“Flora”
() (Carl von Nägeli) 1866 Kingdom Protista () proposed for
bacteria,
protozoa (), algae, and fungi 1937 Prokaryote () introduced for
cells "without a
nucleus" (Edouard Chatton) 1961 Prokaryote defined as cell in which
nucleoplasm is not
surrounded by a nuclear membrane 1959 Kingdom Fungi 1968 Kingdom
Prokaryotae proposed 1969 Five kingdom systems (Robert H.
Whittaker) 1978 Two types of prokaryotic cells found
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The Three-Domain System
Three cell types was discovered based on the observations that
ribosomes are not the same in all cells.
Carl R. Woese proposed in 1978.
Comparing the sequences of nucleotides in ribosomal RNA (rRNA) from
different kinds of cells shows that there are 3 different cell
groups: the eukaryotes and two different types of prokaryotes (the
bacteria and the archaea).
Copyright © 2010 Pearson Education, Inc.
The Three-Domain System
Living organisms are currently into three domains (Figure 10.1). A
domain can divided into kingdoms. In this system, plants, animals,
fungi, and
protists belong to the Domain Eukarya.
Bacteria (with peptoglycan) form a second domain.
Archaea (with unusual cell walls) are placed in the Domain
Archaea.
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The Three-Domain System
The Three-Domain System
Domain Archaea includes prokaryotes that often live in extreme
environments and carry out unusual metabolic processes.
Archaea include three major groups:
1. The methanogen, strict anaerobes that produce methane (CH4) from
carbon dioxide and hydrogen.
2. Extreme halophiles, which require high concentrations of salt
for survival.
3. Hyperthermophiles, which normally grow in hot
environments.
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Table 10.2
A Model of the Origin of Eukaryotes: Endosymbiotic Theory
Eukaryotic cells evolved from prokaryotic cells living one another,
as endosymbionts.
Copyright © 2010 Pearson Education, Inc.
Phylogenetics ()
Each species retains some characteristics of its ancestor
Grouping organisms according to common properties implies that a
group of organisms evolved from a common ancestor Anatomy ()
Fossils
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Fossilized Prokaryotes
stromatolites
Fossilized Prokaryotes
Fossilized Prokaryotes
Filamentous prokaryotes
Scientific Nomenclature Because common names can be misleading and
are
in different languages, a system of scientific names, referred to
as scientific nomenclature, was developed in the eighteenth
century.
Binomial ( ) Nomenclature (genus + specific epithet ()) Used
worldwide
Escherichia coli
Homo sapiens
Scientific Binomial Source of Genus Name
Source of Specific Epithet
Pfiesteria piscicida Honors Lois Pfiester
Disease in fish
Salmonella typhimurium
Streptococcus pyogenes Chains of cells
(strepto)
Forms pus () (pyo)
Taxonomic Hierarchy
Domain
Kingdom
Phylum
Class
Order
Family
Genus
Species
The Taxonomic Hierarchy
No kingdoms assigned for Bacteria and Archaea
Related species make up a genus, related genera make up a
family……
Copyright © 2010 Pearson Education, Inc.
Classification of Prokaryotes
Prokaryotic species: A population of cells with similar
characteristics Culture: Grown in laboratory media
Clone: Population of cells derived from a single cell
Strain: Genetically different cells within a clone
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Phylogenetic Relationships of Prokaryotes
Classification of Eukaryotes
Eukaryotic species: A group of closely related organisms that breed
among themselves
Animalia: Multicellular; no cell walls; chemoheterotrophic
Plantae: Multicellular; cellulose cell walls; usually
photoautotrophic ()
Fungi: Chemoheterotrophic ().; unicellular or multicellular; cell
walls of chitin (;); develop from spores or hyphal fragments
()
Protista (): A catchall kingdom for eukaryotic organisms that do
not fit other kingdoms Grouped into clades () based on rRNA
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clade
A clade (from Ancient Greek κλδος, klados, "branch") or monophylum
(see monophyletic) is a group consisting of an ancestor and all its
descendants, a single "branch" on the "tree of life". The ancestor
may be an individual, a population or even a species (extinct or
extant).
From Wikipedia, the free encyclopedia
Copyright © 2010 Pearson Education, Inc.
Classification of Viruses
Viral species: Population of viruses with similar characteristics
(including morphology, genes, and enzymes) that occupies a
particular ecological niche ()
Viruses are not placed in a kingdom. They are not composed of cells
and cannot grow without a host cell.
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International Journal of Systematic and Evolutionary
Microbiology
Articles with evidence of new species or classification
Bergey’s Manual of Systematic Bacteriology
Provides phylogenetic ( ) information on bacteria and archaea
Approved Lists of Bacterial Names
Lists species of known prokaryotes Based on published
articles
References
Identification Methods Morphological characteristics: Especially
useful
for identifying eukaryotes
Biochemical tests: Determines presence of bacterial enzymes
Classifying & Identifying Microorganisms
Identifying Bacteria
Differential staining: Gram staining, acid-fast staining are used
to identify bacteria
Biochemical tests: Determines presence of bacterial enzymes
Copyright © 2010 Pearson Education, Inc.
Classification and Identification
Classification: Placing organisms in groups of related species.
Lists of characteristics of known organisms.
Identification: Matching characteristics of an “unknown” organism
to lists of known organisms. Clinical lab identification
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Copyright © 2010 Pearson Education, Inc. Applications, p. 283
Identifying Klebsiella doesn’t tell you it’s classified as
gammaproteobacteria
Copyright © 2010 Pearson Education, Inc.
Bergey’s Manual of Determinative Bacteriology
Provides identification schemes for
identifying bacteria and archaea
Morphology, differential
staining, biochemical tests
Bergey’s Manual of Systematic Bacteriology
Provides phylogenetic information on
bacteria and archaea
Based on rRNA sequencing
A Clinical Microbiology Lab Report Form
Figure 10.7
Identifying a Gram – Negative
Numerical Identification A rapid identification method which is
designed to perform several biochemical tests simultaneously and
can identify bacteria within 4-24 hours.
The results of each test are assigned a number.
Copyright © 2010 Pearson Education, Inc. Figure 10.10
Serology
Slide agglutination test
Grainy appearance is due to the agglutination of the
bacteria.
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ELISA
Antibodies linked to enzyme
ELISA
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An ELISA Test
The Western Blot
Lyme disease
1975
Copyright © 2010 Pearson Education, Inc. Figure 10.13
Phage Typing of Salmonella enterica The identification of
bacterial
species and strains by the determination of their susceptibility to
various phages.
1. A plate covered with bacteria growing on agar.
2. A drop of each different phage type is then placed on the
bacteria.
3. Wherever the phages are able to infect and lyse the bacterial
cells, clearings in the bacterial growth (called plaques)
appear.
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Flow Cytometry
Identify bacteria in a sample without culturing the bacteria.
In a flow cytometer, a moving fluid containing bacteria is forced
through a small opening.
Uses differences in electrical conductivity between species
Fluorescence of some species, e.g. Pseudomonas
Cells selectively tagged with antibody + fluorescent dye
Copyright © 2010 Pearson Education, Inc. Figure 10.14
Genetics DNA base composition
Guanine + cytosine moles% (GC) GC+AT = 100% Difference in GC% lager
than 10%
probably not related
digests Determine genetic similarities: the
more similar the patterns the more closely related the
organisms.
rRNA sequencing Polymerase Chain Reaction (PCR)
If a primer for a specific MO is used, the presence of amplified
indicates that MO is present.
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Nucleic Acid Hybridization
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DNA Chip Technology
DNA Chip Technology
FISH
Add DNA probe for Staphylococcus aureus
Figure 10.18
Dichotomous Key ( )
Widely used for identification
Identification is based on successive questions, and each question
has two possible answer.
After answering one question, the investor is directed to another
question until an organism is identified.
P287
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Building a Cladogram ( · )
Cladograms are maps that show evolutionary relationships among
organisms (clado-means branch)(Fig. 10.19)
Copyright © 2010 Pearson Education, Inc. Figure 10.19
Building a Cladogram